Yan Chen scite author profile

Speech recognition (SR) systems such as Siri or Google Now have become an increasingly popular human-computer interaction method, and have turned various systems into voice controllable systems (VCS). Prior work on attacking VCS shows that the hidden voice commands that are incomprehensible to people can control the systems. Hidden voice commands, though 'hidden', are nonetheless audible. In this work, we design a completely inaudible attack, DolphinAttack, that modulates voice commands on ultrasonic carriers (e.g., f > 20 kHz) to achieve inaudibility. By leveraging the nonlinearity of the microphone circuits, the modulated lowfrequency audio commands can be successfully demodulated, recovered, and more importantly interpreted by the speech recognition systems. We validate DolphinAttack on popular speech recognition systems, including Siri, Google Now, Samsung S Voice, Huawei HiVoice, Cortana and Alexa. By injecting a sequence of inaudible voice commands, we show a few proof-of-concept attacks, which include activating Siri to initiate a FaceTime call on iPhone, activating Google Now to switch the phone to the airplane mode, and even manipulating the navigation system in an Audi automobile. We propose hardware and software defense solutions. We validate that it is feasible to detect DolphinAttack by classifying the audios using supported vector machine (SVM), and suggest to re-design voice controllable systems to be resilient to inaudible voice command attacks.

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Analyzing and Enhancing the Security of Ultrasonic Sensors for Autonomous Vehicles

Chen

Jia

et al. 2018

IEEE Internet Things J.

132

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Conan: A Practical Real-Time APT Detection System With High Accuracy and Efficiency

Xiong

Zhu

Dong

et al. 2022

IEEE Trans. Dependable and Secure Comput.

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Yan Chen

Dynamic Replica Placement for Scalable Content Delivery

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DolphinAttack

Analyzing and Enhancing the Security of Ultrasonic Sensors for Autonomous Vehicles

Conan: A Practical Real-Time APT Detection System With High Accuracy and Efficiency

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